NL8101548A - COPPER WIRE FOR INTRA-INTERVIENE OR BIRTH CONTROL DEVICE LOCATED WITHIN THE UTERUS AND A METHOD OF MANUFACTURING THAT. - Google Patents

Description

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Copper wire for intra-intrauterine or intrauterine birth control devices and a method of manufacturing the same.

The invention relates to a copper wire for internal birth control devices, which copper wire has a corrosion resistant core wire, and a method of manufacturing such a copper wire.

It has been found that when decomposed in the uterus, copper wire often corrodes locally and thereby the wire becomes crumbly and disintegrated before all the copper has decomposed. This reduces the life of intra-intravenous devices. In the 1978 publication "Fertility and Sterility", 30 (1), it is noted on pages 59-65 that in investigated copper devices T-200 manufactured by Hallmark Plastics Inc, ü.SA, corrosion phenomena were observed in one case already after only 8 months of use. Previous studies (Population Council's Report NDA, Wire Fragmentation, 1973) have shown signs of corrosion in the copper wires of intra-intravenous devices after just 5 months of use.

Thus, in conventional intra-intervening devices, the problem is the corrosion and fragmentation of the copper wires used therein. It has been proposed to electrolytically deposit copper on a stainless steel wire, the copper of which then decomposes. In this case, the actual wire is made of stainless steel. However, stainless steel, fire resistant or other similar steel is often rigid and therefore not suitable for use in intra-intervening devices. Furthermore, electrolytically coated copper can peel off if corrosion reaches the steel. Furthermore, it can be assumed that due to electrochemical difference in voltage between the steel and the copper, the corrosion of the copper is accelerated if the core is exposed.

The object of the invention is to provide a copper wire 30 for intra-intravenous devices, which wire has a corrosion-resistant core wire and is characterized in that the corrosion-resistant core wire consists of a flexible metal nobler than 8101548 i-2-copper, and that the copper cladding is attached to this metal using a thin diffusion layer.

The more noble metal used is preferably silver, gold or platinum, especially silver.

These metals also have the advantage that they can be easily processed together with copper and that thus a method other than the electrolytic method can be used for bringing the metals together.

The method according to the invention for manufacturing copper wire for intra-intravenous devices is characterized in that a wire of some flexible metal, more noble than copper, is placed inside a copper tube, and the two metals are brought together by forging or soft flow to produce a thin diffusion layer on the interface between the nobler metal and the copper.

The thick-walled copper tube is made of medical grade copper either by extrusion or some other known method of manufacturing a tube.

The silver bar is made of 99.99 percent silver by casting, extrusion, forging or some other known method and it is drawn to a suitable relatively thick dimension, preferably about 10 mm. Then, the thick-walled copper tube is reduced so that its internal diameter is suitably slightly greater than the diameter of the silver bar, and the silver bar is placed within the tube. The thickness of the tube and the silver bar have been determined to correspond to the cross-sectional ratios in the final dimension. Then the copper and the silver bar are pulled together by several successive pull stages and pull rings, the copper being pressed firmly onto the silver. However, this mechanical connection is not sufficient and therefore the material is treated by so-called diffuse soft flow, whereby some diffusion between copper and silver is achieved at a suitable temperature and within a suitable time. It should be noted that the diffusion layer must be very thin, since the copper-silver alloy dissolves in the intra-intravenous fluids, and a silver core with a thick silver copper alloy layer 8101548-3 would dissolve and fall out. After diffuse soft flow or diffuse soft glow several times if necessary, the material is drawn to its final thickness, which is often 0.2 to 0.4 mm. The wire can be used directly or annealed, in which case excessive diffusion must be prevented. In this case, normal resistance annealing is the most effective annealing since diffusion cannot occur due to the short time required. The wire is then ready to be used for the manufacture of the intra-intravenous devices.

Another suitable manufacturing method is interconnecting the materials at a suitable ratio by hydrostatic extrusion, because in this method such a low temperature can be used that excessive diffusion cannot occur.

Copper wire made in accordance with the invention has been tried out for use in intra-intravenous devices called nova T. Since the twisting of twill is very slow, it has now been found possible for the first time to obtain reliable evidence that the thread is operating in the manner described above. After trying for about 4 years, devices have been encountered in which the copper had dissolved and the silver core had been exposed. No signs of dissolution in the core were observed, so the copper wire of the invention is useful.

The following example illustrates the manufacture of the copper wire according to the invention.

Example

In accordance with the foregoing, a tube was made from 30 pure copper by pressing it to a thickness of 46/30 mm (outer diameter / inner diameter}, and then pulled out at a diameter of 22/9. A silver rod was manufactured by casting it at 12mm thick and it was stretched to 8.5mm The silver rod was placed inside the copper tube with a 9mm bore, 35 and they were stretched together until the outer diameter was 18mm, 8101548-4-r '* after which a gentle annealing was carried out at 500 ° C for about 20 min. The temperature of 500 ° C was chosen for the reason that diffusion between copper and silver does not occur at this temperature, then the material was stretched to 12.8mm, and a soft annealing at 500 ° C for 20 min was carried out Further pulled out to 8 mm, then diffusion annealing was performed at 600 ° C for 20 min. Then the wire was thinned to a diameter of 0.3 mm by two The stretching operations in series using resistive annealing for softening during stretching. In the resist annealing there is not enough time for the aforementioned diffusion to take place.

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Claims (7)

1. Copper wire for intra-intravenous birth control devices, which copper wire has a corrosion / resistant core wire, is characterized in that the corrosion resistant core wire is made of some flexible metal more noble than copper, and the copper cladding 5 is attached to this metal by means of a thin diffusion layer. Thread according to claim 1, characterized in. that the corrosion resistant wire is made of silver, gold or platinum, preferably of silver. 3. Wire according to claim 1 or 2, characterized in that the thickness of the corrosion / resistant wire is about 10 to 15% of the outer diameter of the copper cladding. Wire according to any one of the preceding claims, characterized in that the final thickness of the wire is 0.2 to 0.4 mm. 5. A method of manufacturing a wire according to claim 1, characterized in that a wire of some flexible metal more noble than copper is placed inside a copper tube f and the two metals are secured together by forging and annealing to provide a thin diffusion layer on the interface between the nobler metal and copper. 20 Method according to claim 5, characterized in that the copper tube and the wire are attached to each other by hydrostatic extrusion. 7. Method and design as discussed above. 8101548